Rough Estimate about electric light bulb

In summary, the conversation discusses how to estimate the temperature and surface area of the filament in an ordinary electric light bulb emitting white light with a radiated power of 100 W. It is determined that using Wien's Law and the Stephan-Boltzmann law can help estimate the temperature and radiating area. The conversation also touches on the fact that the inside of a light bulb is a vacuum, allowing only EM radiation to dissipate heat and prevent the glass from melting. The difficulty of finding the right material for light bulb filaments is also mentioned.
  • #1
darkar
187
0
Well the question asked us to make a rough estimate of the temperature of the filament in an ordinary electric light bulb which emits white light. And if it has radiated power of 100 W, make a rough estimate of the surface area of filament.

Well, the thing is how u make a rough estimation on the temperature?
 
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  • #2
The color of the light determines the temperature of the radiating body, as described by Wien's Law. A body which is radiating white light has a peak wavelength of emission about in the middle of the visible spectrum.

After you know the temperature, you can use the Stephan-Boltzmann law to find the radiating area, knowing that the radiated power is 100 W.

- Warren
 
  • #3
The gas pressure inside a typical light bulb is reduced so you can probably ignore thermal conduction as a dissipation mechanism and take the thermal energy as being radiated away - more or less as a blackbody.
 
  • #4
Right, so assuming it is a black body, but will it be better to use Planck Spectral Distribution diagram to estimate it? But then the temperature is quite high, about 5500 K, is this possible? Really this hot?
 
  • #5
That's about right, darkar. A blackbody at about 5500K produces white light. The Sun, for example, is such a blackbody. Approximating the light bulb filament as a blackbody is obviously an oversimplification, but it's all you can do in this context.

- Warren
 
  • #6
Wow, didnt know the light bulb is that hot. But if that's so, wouldn't the glass melt?
 
  • #7
darkar,

No, because the inside of a light bulb is a (partial) vacuum. As Tide says, the only mechanism by which heat can leave the filament is EM radiation, and glass is nearly transparent to the majority of the EM radiation thus produced.

- Warren
 
  • #8
I see, thanks a lot everyone !
 
  • #9
darkar said:
Wow, didnt know the light bulb is that hot.

And that is precisely why Thomas Edison had so much difficulty finding the right material and configuration for his lightbulb filaments! :)
 

Related to Rough Estimate about electric light bulb

1. What is an electric light bulb?

An electric light bulb is a device that produces light by passing an electric current through a filament, causing it to heat up and emit light. It is used to provide artificial light in homes, buildings, and other spaces.

2. Who invented the electric light bulb?

The first practical electric light bulb was invented by Thomas Edison in 1879. However, there were previous versions of electric light bulbs created by other inventors, such as Humphry Davy and Joseph Swan.

3. How does an electric light bulb work?

An electric light bulb works by converting electrical energy into light energy. When an electric current is passed through the filament, it heats up and produces light. The filament is usually made of tungsten, which has a high melting point and can withstand the heat produced by the electric current.

4. What is the average lifespan of an electric light bulb?

The average lifespan of an electric light bulb depends on the type and usage. Incandescent light bulbs have an average lifespan of 1,000 hours, while LED light bulbs can last up to 25,000 hours. Factors such as voltage fluctuations and frequent switching on and off can also affect the lifespan of a light bulb.

5. How has the electric light bulb evolved over time?

The electric light bulb has undergone many changes and improvements since its invention. Early versions used carbon filaments, but they were replaced by tungsten filaments which produced a brighter light. In recent years, LED bulbs have become popular due to their energy efficiency and longer lifespan. Researchers are also working on developing more sustainable and eco-friendly alternatives to traditional light bulbs.

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